DE140522C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

In the previously known method for the preparation of antimony oxide and Compounds of the same were made directly from the crude ore by sublimation of the oxide uses an oxidizing flame. However, it has been shown that in this treatment certain oxygen-containing antimony ores could not be digested.

According to the present invention, therefore, the crushed ore becomes smokeless when heated with Firing alternately and one after the other with the action of an oxidizing and a reducing one Subjected to flame as long as antimony vapors escape. Through the reducing In the flame, the original mixture is more or less opened up, and the subsequent treatment with oxidizing Flame causes the reduced metal or lower oxides to quickly re-oxidize and sublime.

The ores to be treated, preferably the natural oxides of antimony with or without sulfur, are first crushed and then calcined in a roasting furnace. This The furnace can preferably be a rotatable flame furnace which is equipped with gas firing is. In it there becomes an oxidizing and reducing effect alternately and one after the other Flame by introducing excess air respectively. generated by water vapor. The resulting antimony vapors then get into chambers, expediently using a fan, in which they mixed with a steam jet. The water vapor condenses on the extreme fine antimony particles, whereby; same immediately. get heavy and hit the ground quickly sink. - The treatment with steam makes it known to all metallurgists Difficulty of excretion of antimony vapors from the air stream overcome and given the opportunity to make the precipitation areas significantly smaller than before.

The special introduction of water vapor is not required in all circumstances. Is the gas used in the flame furnace z. B. luminous gas, when it is burned a sufficient "amount of water vapor is developed.

If, however, the furnace is fired by blast furnace gases, which are chiefly carbon oxide gas contained, then all the practically necessary water vapor must be supplied in some way will.

Instead of firing with coal gas or blast furnace gases, any other smokeless firing can be used, e.g. B. with oil gas or carbon monoxide, which somehow can be generated by glowing coal.

The attached drawing schematically shows the installation of a system, which shows the idea of the present invention carried out in practice. the individual parts of the system are known so that they do not need to be specifically described to need.

A pipe leads from the gas generator A into the rotatable furnace B. In it opens a pipe a, which has the dual purpose of supporting the draft of the furnace and allowing the introduction of air or steam, depending on the circumstances. To in that

To cause furnace B to generate an oxidizing flame, atmospheric air is blown into gas generator A. The same can, however, also be achieved by supplying hot air through the tube α. Conversely, if a reducing flame is required, steam is blown into the generator A respectively. also through the pipe a, if necessary.

ίο The antimony vapors escaping from the furnace B reach the precipitation chambers C, in the connecting duct of which a fan c is installed. Another fan E drives the gases through a water seal D to the outlet channel jF. A heating duct H is provided below the precipitation chambers, which leads directly to the chimney.

The individual parts of the system do not need to be connected to one another in exactly the same way to be as the drawing shows.

So z. B. the fan E can be attached to any other suitable point of the apparatus.

The introduction of the water vapor is best done in the precipitation area Points /; the entry point or a series of entry points for the water vapor however, they can of course also be provided elsewhere.

Claims (1)

Patent claim: Process for the preparation of antimony oxide directly from the raw ore Sublimation, characterized in that the crushed ore alternately and one after the other when heated with smokeless firing is subjected to the action of an oxidizing and a reducing flame. 1 sheet of drawings.